Metal oxide nanoparticles synthesized with the aid of medicinal plant extracts are showing potential as treatment options for inflammatory diseases. Two key benefits of this synthesis method is: the synthesis process is environmentally benign and the utilization of medicinal plant-derived extracts adds to the medicinal value of the synthesized nanoparticle. Earlier, sesquiterpene lactone zaluzanin-D (ZD) has been isolated from leaves of Vernonia arborea. ZD showed ability to reduce inflammation in activated monocytes. Copper oxide nanoparticles (bCuO-NPs) were synthesized using ZD-enriched leaf extract of V. arborea and characterized by UV-vis spectroscopy, FT-IR, XRD, particle size analyzer, and TEM. Synthesized bCuO-NPs did not show significant toxicity to human monocytic cell lines (THP-1) at the tested concentrations. The bCuO-NPs showed radical scavenging ability indicating anti-oxidant properties. Flow cytometry experiments proved the capability of bCuO-NPs to reduce intracellular ROS in peroxide-activated THP-1 cells. The NPs also showed a significant ability to reduce inflammatory adhesion in PMA-activated THP-1 cells. In the DNA methylation studies, bCuO-NPs behaved similarly to ZD and prevented DNA hypomethylation at the MMP-9 promoter region. These properties strongly indicate the ability of bCuO-NPs to reduce inflammation in the activated monocytes. Furthermore, in zebrafish (Danio rerio) embryos, the developmental toxicity of bCuO-NPs was assessed. The studies indicated the reduced toxicity and compatibility of the NPs with biological organisms. Based on the results, it can be concluded that the bCuO-NPs produced from ZD-enriched leaf extract have significant anti-oxidant capabilities and the ability to reduce inflammation in monocytic cell lines. Overall, reduced in vitro and in vivo toxicity, along with its antioxidant and anti-inflammatory properties, makes bCuO-NPs a potential candidate for anti-inflammatory drugs.
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